EA008070B1 - Telemetry signal collection, process and provision equipment - Google Patents

Abstract

This patent refers to an electronic equipment unit, which is intended to collects, process and transfer data from a certain area, which it monitors, to a telemetry system. In more detail, data are collected from various intrusion monitoring sensors (e.g. infra-red or microwave detectors), water level detectors, smoke detectors, electrical supply watchdogs etc. These sensor are external and use the logic circuits of the printed circuit board. The above mentioned data are suitably processed by the unit and the output is sent to a telemetry system via an external interface box. The advantages of this patent is the small size of the device and the low cost of the construction and operation of the device. It integrates on one printed circuit board (PCB) the processor and the logic circuits of a variety of sensors. Owing to its small size, the device can be easily installed inside sealed cellular telephony antenna shelters (outdoor shelters).

Description

The invention relates to a block of electronic equipment that collects, processes and sends data from a certain zone, which it controls, to a telemetry system. Data is collected from various penetration control sensors (for example, infrared or microwave detectors), water level detectors, smoke detectors, power source watchdog devices, etc. This data is properly processed by the unit, and the output data is sent to the telemetry system via an external interface unit. This unit is primarily intended for use inside the antenna shelters of cellular telephony, namely, in sealed containers for outdoor installation, which have a total volume of about 3 m ³ , in contrast to conventional shelters that have the size of a small room (about 35 m ³ ). The electronic equipment block consists of a metal case with a removable cover, an electronic printed circuit board, a lead battery, a 230/18 VA transformer, connecting wires, a special type power supply unit and data transmission cables.

The most similar example of such a device is described in US Patent No. 5,291,607 of March 1, 1994. This patent concerns a microprocessor monolithically combined with an environmental sensor. The microprocessor is shielded from the external insulation, which is specific to the type of sensor used, thus allowing the sensor to be exposed to the external signal. Optionally, a high-level active drive circuit is combined with a microprocessor — with a sensor circuit to provide a monolithic device that adjusts the power of the loads, which are partially based on the output of an environmental sensor. The disadvantage of this patent is that the sensors cannot be placed in an ideal measurement area because they are integrated into the printed circuit board design, and the sensor is isolated with a special type of insulation, which reduces the measurement accuracy.

At present, such equipment, which collects, processes and transfers data from a certain zone it controls, to a remote information collection system located at a great distance, is not developed or manufactured specifically for the above-mentioned use inside cellular telephony shelters. Existing units are either central control units for general industrial use, or central units of security systems, modified for data collection, processing and transmission.

This leads to non-compliance with international safety regulations (CE), as well as to the lack of certification of this equipment for such use, with the corresponding consequences in the form of accidents and interruption of the smooth operation of cellular telephony containers.

In addition, existing units should use external autonomous sensors, in which the processing logic is located inside the data processing circuit, and simply transmit the signal to the central unit. This leads to the mixing of various distributed processing processes, makes it almost impossible to modify or adapt to specific requirements and diverse hardware, and also makes repair and maintenance difficult.

In addition, since the existing units are not intended to be installed inside sealed external containers, they cannot be used as such, which leaves such containers without control infrastructure (capabilities). This, in turn, leads to an increase in the cost of operating and repairing external sealed containers, as they lack monitoring infrastructure, and also the fact that operators are not able to prevent failures or identify problems that arise, so for this job they hire and properly equipped staff.

This invention has the following characteristic new features:

1) The processor and logic circuits of many different sensors are integrated on one printed circuit board. As a result, the overall dimensions of the monitoring system are minimized, which saves valuable space for those application systems in which it is installed (for example, in cellular telephony shelters), and have a unique opportunity to be installed inside sealed antenna shelters (outdoor containers) of cellular telephony.

2) Logic circuits are integrated on the main PCB (KGYTES - KOES in Fig. 1), while all sensors are external and should not have their own logic, because they use the logic of the PCB (Fig. 1 and 2).

3) Another advantage is that there is no need to purchase additional electronic logic / control boards to interact with various sensors, since this is included in the main PCB, which significantly reduces the cost of the control system.

4) The unit is specially designed and manufactured to be used in cellular telephony stations (for example, C8M standard), in which space is extremely limited. It also fully complies with the security requirements of the European Union, as it is ready for installation as is (for example, in cellular telephony containers), without any intervention or modification, such as making holes in the case, adding electronic boards, replacing the power supply, etc. .

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5) The volume and dimensions of the unit, together with the choice of two alternative methods of installation, allow it to be adapted to all known types of sealed (external) cellular telephony containers.

6) Built-in three-phase (K.8T) watchdog power supply network with alarm capability according to the OR or I. logic

7) A separate exit DOOR OPEN, which shows the condition of the container door, provides increased security and ease of operation. The combination of DOOR OPEN and PENETTING alarms provide the operator with enough information to distinguish between accidental and intentional attempts (penetrations).

8) Built-in temperature control circuit with two preset levels for alarm High and Low temperature.

9) Built-in moisture / water level monitoring circuit for flood alarm.

10) Two independent free relays on a printed circuit board for use when special or additional alarm is required.

11) The possibility of easy programmatic changes to meet future requirements.

The electronic unit provides the following functions:

1) Check the availability of phases K-8-T.

If the voltage supply of any of the three phases is interrupted, the corresponding relay is released (the current stops flowing through it) and the opening of its contacts sends the corresponding alarm signal (there are three of them) to the telemetry system. If the selector in series-parallel is in the position in series, then an additional AC power supply ALARM alarm is generated when the supply voltage of any phase is interrupted (operation according to the OR logic). If the selector is in the parallel position, then the AC power supply break alarm is generated only when all three phases are missing (operation according to the logic I).

Regardless of the above, the network that supplies power to the unit is also monitored, and the NETWORK relay NORMAL is held while the current is flowing, and the LED b3 is lit. When the mains supply of the unit is interrupted for more than 20 seconds, the LED b3 goes out and the relay is released, giving the appropriate alarm.

2) Check the battery.

As long as the voltage at the battery terminals is greater than 10.8 V, the BATTERY of the DISCHARGED relay is held in the on state and the LED b2 is lit. When the voltage drops below 10.8 V, the relay is released, giving the appropriate alarm. THE BATTERY IS DISCHARGED.

Note: this function only works when the system is running on batteries (no mains power), while the battery is charging the rest of the time.

3) Moisture control FLOOD.

1.5 seconds after the corresponding sensor becomes wet, the FLOODING relay triggers the FLOODING alarm until the sensor becomes dry again for more than 5 s.

Note: this function only works when the system is powered from the network.

4) ON / OFF the system.

When a block receives an ENABLE command from an external keyboard, then:

4a) The fire alarms are reset to the initial state by turning on the relay FIRE ALARM RESET for 2 s.

4b) The preset delay (TIME COMPLETION TIME) is preloaded (by the TT1 selector). This delay has a step of 7.5 s and a limit value of 120 s. During this time, the buzzer on the unit makes a continuous sound.

4c) After the TIME OF COMPLETION expires, the unit checks the resistance of zones 1 and 2 (balance). If the resistance is within the specified limits (about 1800 ohms), the unit turns off the buzzer and energizes the ON / OFF relay, activating the system and turning on the alarm in the ON state. If the zone (s) are not balanced, then the block loads the preset (by the selector 8Т2) delay ERROR and gives an intermittent sound signal. This delay has a step of 7.5 s and a limit value of 120 s.

4d) If the zone (s) are still unbalanced at the end of the delay period ERROR, the unit turns off the buzzer, releases the ON / OFF relay and leaves the system off (OFF).

5) Check observation zones 1 and 2.

During the time when the system is in the ON state, the unit monitors zones 1 and 2.

Zone 1. If zone 1 is violated, the block loads the initial delay of TIME OF LEAVING (selector 8Т4, with a time step of 7.5 seconds and a maximum of 120 seconds) and turns on the buzzer. If, at the end of this delay, the zone is still violated, the unit turns on the PENETRESS relay, sending the appropriate alarm signal to the telemetry system.

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Zone 2. If zone 2 is violated, the unit checks the preset status of DELAY 1. If it is set to DELAY, then the sequence of operations will be the same as in zone 1. Otherwise, the ENTRY relay will turn on immediately without any sound alarm.

6) FIXING function.

If the FIXING function has been selected, the ENTRY relay remains on until the unit is turned OFF from an external keyboard.

If the FIXING function has not been selected, the ENTRANCE relay remains on for a predetermined ALARM time set by the selector 8Т3.

This time has a step of 37 s and can have a maximum value of 600 s.

7) DOOR OPEN function.

This independent function carefully monitors the status of both zones 1 and 2, and if any of them violate the DOOR OPEN, it sends a corresponding alarm signal to the telemetry system without any delay and as long as the problem continues to exist.

8) Battery charging.

The unit includes the appropriate circuit for automatically charging its battery, which has a voltage of 12 V and a capacity of 2.2 Ah (see the section on the description of circuits in paragraph 4).

9) Transit flow.

On the circuit board of the unit there are two spare relays KEBA1 and KEB1. Their coils and contacts are connected to the connecting terminals and can be selected to be normally open (N / 0) or normally closed (Ν / C) by means of the selectors 8ЕБЕСТА1 and 8ЕБЕСТЕМ1.

Also on the PCB there are a number of direct connections between connectors in order to facilitate wiring and routing of some telemetry signals that do not require processing. They are described on the diagram of the INTERCONNECTION OF THE OUTER UNIT ΚΙΝΤΕΟ 'and are shown on the diagram of the printed circuit board.

Description of the electronic circuit block (Fig. 2, 2.1, 2.2, 2.3, 2.4)

The electronic circuit consists of the following parts / subcircuits:

1) The components of the microprocessor core are an AT9088515 microprocessor integrated circuit (I1), a quartz resonator (Υ1), capacitors CC1, CC2, CAA1, C1 and watchdog integrated circuit (I2).

The microprocessor controls the following schemes:

1a) Delay schemes of ENDING, ERROR, ALARM and TIME of INPUT, consisting of elements 8Т1, 8Т2, 8Т3, 8Т4, АК1 and АК2.

1b) Delay selection for zone 2 (delay 1, cfu) and penetration relay latching (FIXING, KM1).

1c) The control circuits are ON / OFF zones 1 and 2, consisting of elements 1-,1, 1ΙΝΆ1, C21, SU1, C01, C22, 1, ΚΖ2, K811, Κ0Ν2.

1d) Zones balance management schemes, consisting of elements K81, K82, K84, K85, K88, K89, K83, K87, I81 and I82.

1e) Network voltage control circuit, elements Ό1, Ζ2, K1 and C2.

1e) Microprocessor data output circuits, control relays POWER ON, DOOR OPEN, ON / OFF, FIRE ALARM RESET, NETWORK IN NORMAL and BUZZER and consisting of the corresponding parts ΚΙ1, ρΐ1, KTHO -1-KI1-KI1-KI1-KI1-KI1-KO1-KI. ΚΌ1-Κ0Ν1, Ο0Ν1. Κ0Ν1-ΚΕ1, ОЕЕ КЕ1-К2, К3, Ь3, 04, К5-КВИ1, С3, СΒυΖΖ1, ΌΒυΖ1, Ь81.

The dry contact terminals of the aforementioned relays are available at the ΕΌΝΝΆΕ ί, А 1! ИА2 and 1-ΙΝΒ2 connectors and are sequentially passed through the interface box to the telemetry panel.

2) Analog microprocessor-independent circuits monitor the battery voltage (BATTERY DISCHARGED), moisture (FLOOD) and three phases (K8T) of the network and consist of КВ2, КВ3, КВ4, КВ2, КВ6, КВ1, КК2, р2, Ь2, K2 (BATTERY DISCHARGED), KA1, KA2, KA3, KA4, KA5, KK1, ΚΖΕ1, CA1, CA2, Ζ1, p1, K1, Ü1, υΑ1 (FLOODING) and 8282, 8383, 841, K8T1, K8T2, K8T3 (ТО1), 8282, 8383, 841, K8T1, K8T2, K8T3 ).

3) Signal transit circuits, consisting of КЕЬА1, КЕЬВ1, 8ЕБЕСТА1 and 8 ЭБЕСТЕМ1 and interconnects between connectors СOИ№1, 1-1ИА3 and 1-1ХВ3.

4) Power supply and battery charging circuit, consisting of elements E1, E2, E3, E4, E5, KU1, SMA1I2, 4, SMA1I1, KR1, KR2, KR3, KR4, KR5, CP5, CP4, CP2, CP3, 2 , ΌΡ1 and 2.

The way all circuits function and interact with each other is presented analytically in the attached block diagrams and in the detailed operational description of the unit.

Body

The unit is housed in a metal case in which there are a) a printed circuit board, b) a power transformer and c) a battery (Fig. 8, 9, 10).

The housing supports and protects the above components from environmental influences, ensures the safety of personnel and acts as an electromagnetic shield against the environment and in relation to it (protection against electromagnetic interference / electromagnetic compatibility).

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Case dimensions are 290x225x76 mm. It consists of a main part and a removable cover secured with four screws in the corresponding threaded elements connected to the corners of the main part.

The body is made from rolled steel sheet (bsr) with a thickness of 1.0 mm for the main part and 0.8 mm for the cover and painted in an electrostatic field with a layer of paint with a thickness of 60 μm.

Inside the main part of the housing, threaded elements are fixed for fastening the cover, supports for the printed circuit board, a metal channel for the 220 V network cable, a battery support, a transformer, mounting racks, as well as an electromagnetic and protective earth terminal.

The lid is also equipped with an associated grounding terminal for better electromagnetic shielding and for safety.

On the upper and lower sides of the main part (225x76 mm) there are 10 holes with a liquid-tight plastic seal that relieves the mechanical stresses of the cables for reliable and safe output / entry of cables to and from peripheral devices.

On the side of the main body part (290x76 mm), angular metal strips are attached with holes to hold the unit when it is installed in a rack. Alternatively, a separate two-piece metal split bracket is used for wall mounting, if required.

The housing is equipped with a safety switch, which gives the appropriate signal of unauthorized intervention, if the housing is opened by unauthorized personnel.

The above description refers to the attached circuit solutions that illustrate the preferred implementation of this invention. Other implementations or modifications are also possible, within the spirit and scope of this invention.

For example, various sensor combinations can be used for different control needs. In addition, this invention can be used in the antenna cover of any system and generally where there is a lack of free space. Thus, the present description is intended to explain and does not limit the invention. The scope and nature of the invention are defined by the attached claims.

Claims (10)

CLAIM 1. An electronic device (ΚΙΝΤΕΟ ΚΟΌυ-1) for monitoring a specific space, including many sensors for monitoring environmental parameters and obtaining measurement data associated with these parameters, processing tools associated with sensors for collecting and processing this data, where each sensor includes the first unit (temperature sensor, flood sensor, intruder / open door, fire sensor, fuel tank, generator running, spark gap surge arresters, air conditioning unit ), Which is sensitive to the parameters of the environment, in addition, said sensor is a controlling and generates an analog electric signal depending on the parameters checked; the second block, which includes electronic components, which receive the specified analog electrical signal from the first block and produce digital data representing the verified parameters of the external environment, and characterized in that said processing means and the second block of each sensor are combined with the same printed circuit board, and the first block of each sensor is located on the outside of the printed circuit board. 2. The electronic device according to claim 1, characterized in that the first block of each sensor does not include any electronic components. 3. The electronic device according to claim 1 or 2, characterized in that in the same printed circuit board combines the following additional subcircuits: a) the input data for the microprocessor, b) the power supply and c) the output data. 4. The electronic device according to claim 1 or 2, characterized in that it contains a combination of some or all of the logic circuits for the following sensors: a) monitoring and indicating the status of phases B, 8, T of the power supply network with the possibility of signaling according to the AND or OR scheme, b) control and display of temperature, c) monitoring and indicating the water level, d) monitoring and indicating the presence of smoke, d) monitoring and indicating the opening of the door, e) monitoring and indicating the voltage of the backup battery, and g) monitoring and indicating the penetration. 5. An electronic device according to any one of the preceding paragraphs, characterized in that two or more independent relay circuits for signaling are additionally placed on said electronic printed circuit. 6. An electronic device according to any one of the preceding paragraphs, characterized in that it is intended for use in antenna shelters. - 4 008070 7. Electronic device and. 5, characterized in that it is intended for use in aerial shelters for mobile telephony (С§М operators) (outdoor container). 8. An electronic device according to any one of the preceding paragraphs, characterized in that said electronic printed circuit is housed in a housing comprising a base, four side walls and a removable cover and made of a material, such as metal, providing safety for personnel, protection from environmental influences and electromagnetic shielding from the environment and in relation to it. 9. The electronic device according to claim 7, characterized in that in its case there are: a) holes in the side walls for transmission and installation of cables connecting the circuits inside the case with external peripheral devices, b) metal supports for installing electronic printed circuit on the base, c) a metal channel in the base of the case for transmission and protection of the power cable, d) grounding terminals for electromagnetic and protective grounding, e) a grounding terminal on the removable cover, connected to the main body grounding grounding for complete electromagnetic shielding and safety, e) additional metal base for installing and holding the battery, g) the pivot point of the transformer, h) metal strips welded to the outer surface of the main part of the body base (290x76 mm) with holes for lateral installation of the device in racks. 10. An electronic device according to claim 8 or 9, characterized in that the said case is protected from unauthorized interference by a protective switch on the removable cover, which gives an alarm signal in case of opening by unauthorized personnel.